BG2123U1 - Screw implant - Google Patents

Abstract

Screw implant (1) has a pin (5) and a threaded portion (6) for anchoring in the bone marrow, as well as removable head (3) surfaces for operation (4) or holes using an auxiliary device placement. The pin (5) and removable head (3) are formed as one component element. On the pin (5) between the thread (6) and the exchangeable head (3) has at least one region of shear (7a to c) in which the interchangeable head (3) is removably together with an upper portion of the post (5) . Offset head (8, 8 ') is capable of fitting to the remaining lower part of the post (5).

Description

The utility model refers to a screw implant that is used in dental implantology.

BACKGROUND OF THE INVENTION

Screw implants have long been used in dental implantology, these are basically one-component and two-competent implants. According to the state of the art, implants with different diameters and enosal (intraosseous) heights are delivered and stored in stock. This requires in practice to maintain a stock of a large number of implants or to provide the necessary implants for each individual patient case, after which they are selectively and timely ordered before the operation. If mistakes are made in this regard, the operation will lack the appropriate implant, which is usually associated with trouble.

Another problem is the previously unpredictable loss of bone and mucous membranes over the years, which can lead to unaesthetic visible places with metal in the mouth.

Technical essence of the utility model

The task of the utility model is to create an implant that is easier to store and is universally applicable at different heights, while the implant solves the problem of bone loss and unaesthetic places with metal in the oral cavity.

This problem is solved with a screw implant with the features of claim 1.

Explanation of the attached figures

Figure 1 shows a main screw implant 1 with an intraosseous threaded part, a vertical part in the form of a pin 5 and a head 3, the head 3 including operating surfaces 4 or other means in which it can be operated in an appropriate manner with a placement tool. screwing the implant into the jawbone. The longest possible intraosseous implant is marked 2. After screwing the implant 1, the surgeon can remove the head 3 with the excess and unnecessary part of the pin 5. Positions 7a to c indicate, for example, the possible removal sites depending on the degree of penetration of the pin in the jawbone. The removed head of the implant 1 is now replaced by the compensating head 8, which is fixed on the remaining end of the pin of the pin 5.

Figure 2 shows a basic screw implant according to the utility model, which after placing the implant at the height of the removal section 7a, fig. 1 is cut so that the new compensating head 9 placed on it reaches the height of the oral mucosa 9. The compensating head 8 has an inner opening which aptly tapers upwards 13, thanks to which a channel for the outflow of excess cement is formed. 10 denotes the intraosseous portion of the implant that has been prepared for this implant, the thread 6 falling into the second peripheral bone layer 12. In other cases, the intraosseous portion of the implant 10 may be shorter or longer, such as In some cases, the pin 5 must be cut in another section from 7a to C. The cement gap between the pin 5 and the hole 11 of the compensating head is, for example, with a maximum width of 0.25 mm.

Figure 3 shows the compensating head 8 below. The drain channel 13 and the inner opening 11 are identified.

Figure 4 shows another variant of the compensating head 8 below. The drain channel 13 and the inner opening 11 are identified, which are preferably in an oval design.

Figure 5 shows a specific embodiment of the compensating head 8 '. In this case, the opening 11 does not follow the longitudinal direction of the compensating head 8 ', but is at an angle to the central axis of the compensating head 8', as a result of which in many cases the prosthetic applicability of the implant system and aesthetic results can be improved.

One-component basal screw implants have been developed, which are initially anchored in the second peripheral layer of the jawbone (Kortikalis). They do not need to be anchored in the first peripheral bone layer near the crest of the jaw. According to the state of the art, such implants are made in different lengths. What all screw implants have in common is that they have sectors that allow the application of screwing forces and the screwing of the implant into the jawbone. Commonly used configurations are, for example, external square and hexagonal screw heads or internal hexagonal and octagonal screw heads or internal and external torx systems. From time immemorial, single-component implants have used vertical grooves / channels and outer squares.

Because the head and the implant body are tightly connected, the implant surgeon has a wide range of implant lengths, for example from 8 to 50 mm.

In order to reduce this variety of lengths, an implant system has now been developed in which, in addition to the one-component implant, a compensating head 8 is provided. as the implant surgeon cuts it to the desired area. The part of the pin that protrudes in the desired size above the jaw remains anchored in the jaw.

The compensating head 8 has an inner opening 11,11a, which essentially corresponds to the outer shape, resp. the outer diameter of the pin 5 of the implant 1. The compensating head 11,11 a is placed on the cut stump of the pin 5 and fixed there, for example with cement or plastic. The diameter of the inner hole 11,11a should be chosen so that a very thin and precise cement cut remains between the compensating head 8 and the pin 5.

Surprisingly, it is possible to apply a compensating head 5 with smaller, larger or equal dimensions to the mounting head, because after the implant is inserted there is no need for a monolithically mounted head 3 and its operating surfaces and therefore it can be removed. and replace with a compensating head 8. According to the invention, the pin does not need to be with a head 3. It is sufficient for the pin to have surfaces or elements that allow the pin to be screwed into the jawbone. According to the invention, such a headless pin can subsequently, after screwing, be shortened to the required length before fixing the compensating head on the end of the pin.

Suitably, the overlap sector between the implant pin 5 and the compensating head 8 should be at least 3 mm, therefore there should be an internal hole in the compensating head 8

U1 la 11 with at least the same length.

Excess cement during cementation can flow through a hole 13 or cavity provided for this purpose. This prevents cement or glue from being pushed onto the implant sector near the mucosa or even below the mucosa.

If it is desired to have an additional anti-rotation / torsion lock between the implant pin 5 and the compensating head 8, the pin and the compensating head within the overlap range may have non-circular configurations. For example, in hell. 4 shows an oval hole 11a, which in this case is suitable for the use of an oval pin 5. However, polygonal geometric shapes can also be used for the pin 5 and the hole 11, 11a of the compensating head 8.

In summary, the implant placement method includes the following steps:

The threaded part 6 and the vertical part in the form of a pin 5 are anchored to the required depth in the jawbone. For this purpose, the integrated head 3 of the implant includes operating surfaces 4 or other means by which the insertion tool can be operated in an appropriate manner to screw the implant into the jawbone. After screwing the implant 1, the surgeon can remove the head 3 with the excess and unnecessary part of the pin 5 in one of the necessary places from positions 7a to c depending on the degree of penetration of the pin into the jawbone. The removed head 3 of the implant 1 is now replaced by the compensating head 8, which is fixed on the remaining end of the pin of the pin 5. The compensating head 8 is placed and fixed on the end of the pin 5. In another suitable embodiment, the compensating head 8 'is shaped so that an angle is formed between the axial direction of the pin and the axial direction of the compensating head. This angle causes the compensating head 8 'to bend relative to the axial direction of the implant 1.

Claims (7)

Claims A screw implant (1) comprising a threaded pin (5) (6) for attachment to the bone substance and a replaceable head (3) provided with operative surfaces (4) in its upper part, such as the pin (5) and the replaceable head (3) are designed as a one-component element, characterized in that there is at least one cutting section (7a to 7c) on the pin (5) between the thread (6) and the replaceable head (3) for removing the replaceable head (3). together with the upper part of the pin (5), where a compensating head (8,8 ') is provided for mounting on the remaining lower part of the pin (5), 2, A screw implant according to claim 1, ha U1 characterized in that the compensating head (8,8 ') has an inner hole (11,11 a) for inserting and fixing the rest of the pin (5) in the compensating head (8, 8'). Screw implant according to one of Claims 1 or 2, characterized in that the compensating head (8, 8 ') and the pin (5) have an overlapping sector in the area of the opening (11, Pa) of at least 3 mm. Screw implant according to one of Claims 1 to 3, characterized in that the compensating head (8,8 ') is fixed to the pin (5) with cement or plastic. Compensating head for screw implant, characterized in that the compensating head (8, 8 ') has a drain channel (13) or a cavity in the area of the opening (11, Pa) for draining the excess cement. Compensating head for a screw implant according to claim 5, characterized in that the cross section of the hole (Pa) in the compensating head (8, 8 ') is oval or polygonal in shape. Compensating head for screw implant according to claims 5 and 6, characterized in that the inner hole (11, 11a) is located at an angle to the central axis (14) of the compensating head (8 ').